CN114407530A - Big data analysis type spouts a yard analysis appearance based on meta-learning - Google Patents

Abstract

The invention discloses a big data analysis type code spraying analyzer based on meta-learning, which comprises a machine body, wherein a lower cavity and an upper cavity are respectively formed in the machine body, a learning component and an ink purifying component are respectively arranged in the lower cavity and the upper cavity of the machine body, the ink purifying component comprises a driving motor in the lower cavity, an upper bracket and a lower bracket, an upper rotating shaft connected with the output end of the driving motor is rotatably arranged in the upper bracket, and a lower rotating shaft is rotatably arranged in the lower bracket. According to the invention, the upper rotating shaft and the lower rotating shaft which correspond to each other vertically are arranged, so that the code spraying of the code spraying end head is realized with high definition; the storage module and the operation module which are uniformly allocated by the control center are divided into an experience plate and a task plate, and the grading module, the keyword search module, the pairing module and the learning module are respectively arranged in the operation module, so that the rapid modeling learning can be carried out through the past experience when a new task is received, and a self-learning mechanism is gradually established by means of a huge data database.

Description

Big data analysis type spouts a yard analysis appearance based on meta-learning

Technical Field

The invention relates to the technical field of code spraying processing, in particular to a big data analysis type code spraying analyzer based on meta-learning.

Background

With the continuous development of market economy, the requirements for market development are more and more standardized, and particularly, at present, the industrial and commercial management part stipulates that bar codes must be printed on products to be sold after being manufactured so as to record and identify the information of product modules. Generally, the code is printed on the back of the display screen, and the code is scanned on the front or back of the display screen. Along with the continuous development of spouting the sign indicating number technique for current ink-jet technology is more intelligent, and digital printing machine based on ink-jet technology more and more receives people's favor, nevertheless, because current spout a yard analytical equipment still leads to still having certain limitation because of the structural constraint of functional effect, it is especially obvious to present on definition and spout a yard mode:

firstly, the ink-jet printing ink is an important component in the ink-jet printing material, the quality and performance of the ink are closely related to the quality and effect of the sprayed code, and the using effect of the sprayed code analysis equipment is greatly influenced. The excellent code spraying characteristic is required to be obtained by matching the printing ink, the code spraying bearing object and the code spraying equipment, and particularly when the ink quality is poor, the definition of the code spraying effect is extremely deadly influenced, and the situation of fuzzy double image is extremely easy to exist. Most of the existing code spraying analytic instruments are directly put in ink for use, and invisible particle impurities are often doped in the ink, so that if the particle impurities are not cleaned, the code spraying effect is influenced, the structure damage of code spraying analytic equipment is more likely to be caused, and particularly, a fine pipeline at the end part of a code spraying is extremely easy to block and wear;

secondly, because present spout a yard resolver is smart machine mostly, so require it to be applicable to multiple occasion, but the actual conditions need carry out very complicated procedure setting to these spout a yard resolvers, not only waste time and energy, and have certain degree of difficulty to the non-professional use group for spout a yard resolver and be difficult to reach required yard effect of spouting.

Disclosure of Invention

The invention aims to solve the problem that clear code spraying processing is difficult to perform in the prior art, and provides a big data analysis type code spraying analyzer based on meta-learning.

In order to achieve the purpose, the invention adopts the following technical scheme:

a big data analysis type code spraying analyzer based on meta-learning comprises a machine body, wherein a lower cavity and an upper cavity are respectively formed in the machine body, and a learning component and an ink purifying component are respectively arranged in the lower cavity and the upper cavity of the machine body;

the ink purification subassembly includes driving motor, upper bracket and the lower carriage of fixed mounting in the cavity of resorption, and rotates the last pivot that the installation is connected with the driving motor output in the upper bracket, rotate in the lower carriage and install down the pivot, go up pivot and pivot down in respectively fixedly connected with expansion bend and purification sieve bucket, fixedly connected with and purification sieve bucket matched with lid on the expansion bend, and fixedly connected with (mixing) shaft on the purification sieve bucket, the organism rotates through upper bracket and lower carriage and installs the transmission shaft, and goes up and fixes respectively on pivot and the transmission shaft driving gear and the driven gear that the meshing is connected of being equipped with, be connected with the belt pulley between transmission shaft and the lower pivot.

Preferably, the upper chamber and the lower chamber are opened in the body from top to bottom, and an operation window corresponding to the lower chamber is opened in a side wall of the body.

Preferably, the driving motor, the upper bracket and the lower bracket are arranged in the lower cavity from top to bottom, the upper rotating shaft and the lower rotating shaft are vertically arranged in a vertically corresponding manner, the purification sieve barrel is of a hollow cylindrical structure with an opening at the top end and an opening at the bottom end, and the cover body is detachably sleeved in the opening at the top end of the purification sieve barrel in a rotating manner.

Preferably, the stirring shaft is vertically arranged in the purification sieve barrel, a purification screen arranged below the stirring shaft is fixedly arranged in the purification sieve barrel, a high-pressure pump is fixedly arranged in the lower cavity, and a code spraying end head connected with the high-pressure pump through a hose is arranged outside the machine body.

Preferably, the transmission shaft is vertically arranged between the upper bracket and the lower bracket, and the transmission shaft is positioned outside the purification sieve barrel.

Preferably, the learning component comprises a storage plate, an operation plate and a control center, the storage plate, the operation plate and the control center are fixedly arranged in the upper cavity, the storage plate is composed of an experience module and a task module, and the operation plate is composed of a grading module, a keyword search module, a matching module and a learning module.

Preferably, the storage plate and the operation plate are electrically connected with a control center, and the control center is connected with the code spraying end head through an information optical cable.

Preferably, a material supplementing box for supplying ink is fixedly arranged outside the machine body, and a material conveying pipeline extending into the lower cavity and corresponding to the opening at the top end of the purification sieve barrel is connected to the material supplementing box.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the upper rotating shaft and the lower rotating shaft which vertically correspond to each other are arranged in the lower cavity of the machine body, the lower rotating shaft is used for arranging the purifying screen barrel which can be used for containing ink for code spraying, the upper rotating shaft is used for arranging the cover body capable of sealing the purifying screen barrel and the stirring shaft with a stirring effect, and the transmission shaft is used for realizing the rotation of the purifying screen barrel and the stirring shaft in opposite directions through meshing transmission and belt transmission, so that the ink in the purifying screen barrel is fully stirred, filtered and purified, and the code spraying end head is ensured to realize highly clear code spraying.

2. The invention sets a storage module and an operation module which are uniformly allocated by a control center in the upper cavity of the machine body, divides the storage module into an experience plate and a task plate, and sets a grading module, a keyword search module, a matching module and a learning module in the operation module respectively, so that the invention can carry out rapid modeling learning by the past experience when receiving a new task and gradually build a self-learning mechanism by a huge data database.

In conclusion, the ink jet printing device has the advantages that the upper rotating shaft and the lower rotating shaft which correspond to each other vertically are arranged, the lower rotating shaft is used for arranging the purifying screen barrel which can be used for containing ink for code spraying, the upper rotating shaft is used for arranging the cover body capable of sealing the purifying screen barrel and the stirring shaft with the stirring effect, the transmission shaft is used for realizing the rotation of the purifying screen barrel and the stirring shaft in opposite directions through meshing transmission and belt transmission, so that the ink in the purifying screen barrel is fully stirred, filtered and purified, and the code spraying end head is guaranteed to realize high-definition code spraying; the storage module and the operation module which are uniformly allocated by the control center are divided into an experience plate and a task plate, and the grading module, the keyword search module, the pairing module and the learning module are respectively arranged in the operation module, so that the rapid modeling learning can be carried out through the past experience when a new task is received, and a self-learning mechanism is gradually established by means of a huge data database.

Drawings

Fig. 1 is a schematic structural diagram of a big data analysis type code-spraying analyzer based on meta-learning according to the present invention;

FIG. 2 is a side sectional view of a big data analysis type code-spraying analyzer based on meta-learning according to the present invention;

FIG. 3 is an enlarged schematic view of part A of a big data analysis type code-spraying analyzer based on meta-learning according to the present invention;

FIG. 4 is a front cross-sectional view of a big data analysis type code-spraying analyzer based on meta-learning according to the present invention;

fig. 5 is a schematic diagram of a learning component structure of a big data analysis type code-spraying analyzer based on meta-learning according to the present invention.

In the figure: the device comprises a machine body 1, a lower cavity 2, an upper cavity 3, a driving motor 4, an upper support 5, a lower support 6, an upper rotating shaft 7, a lower rotating shaft 8, a telescopic device 9, a purification sieve barrel 10, a cover body 11, a stirring shaft 12, a transmission shaft 13, a driving gear 14, a driven gear 15, a belt pulley 16, a purification sieve mesh 17, a high-pressure pump 18, a storage plate 19, an experience module 191, a task module 192, an operation plate 20, a grading module 201, a keyword search module 202, a matching module 203, a learning module 204, a control center 21, a material supplement box 22 and a code spraying end 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a big data analysis type code-spraying analyzer based on meta-learning includes a body 1, a lower cavity 2 and an upper cavity 3 are respectively formed in the body 1, and a learning component and an ink purifying component are respectively arranged in the lower cavity 2 and the upper cavity 3 of the body 1;

it should be noted that:

firstly, a code spraying analyzer can continuously obtain new code spraying content and a code spraying operation mode through a learning component, so that the code spraying mode is continuously improved in the later application process, and the code spraying content is modified;

secondly, carry out efficient filtration purification to spouting the ink that the sign indicating number used through the ink purification subassembly to reduce the impurity in the ink, guarantee the purity of ink, ensure to spout the definition of sign indicating number.

The ink purifying assembly comprises a driving motor 4 fixedly arranged in the lower cavity 2, an upper bracket 5 and a lower bracket 6, the driving motor 4 adopts a servo motor with the product model of HC-SFS301, an upper rotating shaft 7 connected with the output end of the driving motor 4 is rotatably arranged in the upper bracket 5, a lower rotating shaft 8 is rotatably arranged in the lower bracket 6, an expansion piece 9 and a purifying sieve barrel 10 are respectively and fixedly connected on the upper rotating shaft 7 and the lower rotating shaft 8, a cover body 11 matched with the purifying sieve barrel 10 is fixedly connected on the expansion piece 9, and a stirring shaft 12 is fixedly connected on the purifying sieve barrel 10, further, under the driving action of the driving motor 4, the cover body 11 and the stirring shaft 12 can rotate clockwise to stir and drive ink in the purifying sieve barrel 10 clockwise direction, a transmission shaft 13 is rotatably arranged on the machine body 1 through the upper bracket 5 and the lower bracket 6, and a driving gear 14 and a driven gear 15 which are respectively fixedly sleeved and connected on the upper rotating shaft 7 and the transmission shaft 13, be connected with belt pulley 16 between transmission shaft 13 and the lower pivot 8, and the meshing transmission effect through driving gear 14 and driven gear 15 can make transmission shaft 13 and lower pivot 8 carry out the counter clockwise rotation to make purification sieve bucket 10 drive the ink and carry out the counter clockwise and flow, can guarantee to carry out comprehensive even stirring drive to the ink, ensure that its high efficiency realizes purifying and filtering through purification screen 17.

The upper chamber 3 and the lower chamber 2 are opened in the machine body 1 from top to bottom, and an operation window corresponding to the lower chamber 2 is opened in the side wall of the machine body 1, so as to clean the lower chamber 2 of the machine body 1.

With particular reference to the accompanying figures 2-4 of the specification:

driving motor 4, upper bracket 5 and 6 top-down of lower carriage set up in cavity of resorption 2, and go up the vertical setting of pivot 7 and lower pivot 8 upper and lower correspondence ground, purification sieve bucket 10 is the cavity tubular structure of top end opening, bottom trompil, and lid 11 rotates the cover dismantled and assembledly and locates in the opening of purification sieve bucket 10 top, rotate through drive (mixing) shaft 12 and purification sieve bucket 10 simultaneously, in order to drive the ink and carry out two-way flow, guarantee that the ink can keep the motion state on purification screen 17, filter with higher speed.

The vertical purification sieve bucket 10 that is located of (mixing) shaft 12, and fixed mounting has the purification screen cloth 17 that is located (mixing) shaft 12 below position in the purification sieve bucket 10, and fixed mounting has high-pressure pump 18 in the lower chamber 2, and organism 1 is provided with the yard end 23 that spouts that links to each other with high-pressure pump 18 through the hose outward, realizes the filtration purification to the ink through purifying screen cloth 17, and rethread high-pressure pump 18 provides clean ink for spouting yard end 23 to the clear effect of sign indicating number is guaranteed to spout.

Referring to the attached drawings 2-3 of the specification, a transmission shaft 13 is vertically arranged between the upper bracket 5 and the lower bracket 6, and the transmission shaft 13 is positioned outside the purification sieve barrel 10 so as to synchronously drive the stirring shaft 12 and the purification sieve barrel 10.

Further, with reference to the accompanying fig. 5 of the specification:

the learning component comprises a storage plate 19, an operation plate 20 and a control center 21 which are fixedly arranged in the upper cavity 3, past learning experiences and new learning can be classified and stored through the storage plate 19, the storage plate 19 is composed of an experience module 191 and a task module 192, the operation plate 20 is composed of a grading module 201, a keyword search module 202, a pairing module 203 and a learning module 204, the similarity between the past experiences and the new tasks can be searched through the keyword search module 202, so that a basis is provided for the work of the pairing module 203, and the learning module 204 can rapidly learn the new tasks according to the past experiences and acquire more learning experiences.

The storage plate 19 and the operation plate 20 are electrically connected to the control center 21, the control center 21 is connected to the code spraying end 23 through an information optical cable, and the control center 21 controls the information storage and operation of the storage plate 19 and the operation plate 20, and controls the specific operation of the code spraying end 23, so that the code spraying end 23 performs code spraying operations with different contents in different ways.

A feeding box 22 for supplying ink is fixedly installed outside the machine body 1, and a feeding pipeline extending into the lower cavity 2 and corresponding to the opening at the top end of the purification sieve barrel 10 is connected to the feeding box 22, it should be noted that the feeding pipeline can be adjusted in a telescopic manner in real time according to the opening and closing state of the purification sieve barrel 10, so as to provide ink for the purification sieve barrel 10.

The invention can be illustrated by the following operating modes:

firstly:

first, the control center 21 accepts new tasks through the task module 192;

secondly, the operation panel 20 searches for similar learning experiences from the experience module 191 through the keyword search module 202;

thirdly, the operation board 20 pairs the new task with the learning experience stored in the experience module 201 through the pairing module 203, so as to quickly establish a learning model with the same attribution;

fourthly, the operation board 20 performs similar learning through the learning module 204;

fifthly, the operation board 20 classifies the learned experience of the new task learning through the classification module 201;

sixth, storage block 19 stores new learning experiences as appropriate.

Secondly, the method comprises the following steps:

in the state that the purification sieve barrel 10 is opened, the material supplementing box 22 provides ink for code spraying for the purification sieve barrel 10 through a material conveying pipeline;

controlling the expansion piece 9 to be opened, driving the cover body 11 and the stirring shaft 12 to vertically move downwards, enabling the cover body 11 to be movably sleeved in the opening at the top end of the purification sieve barrel 10, and enabling the stirring shaft 12 to extend into the purification sieve barrel 10;

controlling the driving motor 4 to be started, driving the upper rotating shaft 7 to rotate by the output end of the driving motor 4, and driving the stirring shaft 12 to rotate clockwise in the purifying sieve barrel 10 by the upper rotating shaft 7 through the expansion piece 9 and the cover body 11;

the upper rotating shaft 7 drives the transmission shaft 13 to rotate anticlockwise through the driving gear 14 and the driven gear 15 which are connected in a meshed mode, the transmission shaft 13 drives the lower rotating shaft 8 to rotate synchronously through the belt pulley 16, and the lower rotating shaft 8 supports the purification sieve barrel 10 to rotate anticlockwise, so that ink in the purification sieve barrel 10 flows to the lower end position of the lower cavity 2 through the purification sieve mesh 17 under the stirring effect;

absorbing the clean ink in the lower cavity 2 through the high-pressure pump 18 to convey the ink to the code spraying end 23;

the control center 21 controls the code spraying end 23 to perform specific code spraying operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. A big data analysis type code spraying analyzer based on meta-learning comprises a machine body (1) and is characterized in that a lower cavity (2) and an upper cavity (3) are respectively formed in the machine body (1), and a learning component and an ink purifying component are respectively arranged in the lower cavity (2) and the upper cavity (3) of the machine body (1);

the ink purifying assembly comprises a driving motor (4), an upper support (5) and a lower support (6) which are fixedly arranged in a lower cavity (2), an upper rotating shaft (7) which is connected with the output end of the driving motor (4) is rotatably arranged in the upper support (5), a lower rotating shaft (8) is rotatably arranged in the lower support (6), an expansion piece (9) and a purifying sieve barrel (10) are respectively and fixedly connected onto the upper rotating shaft (7) and the lower rotating shaft (8), a cover body (11) which is matched with the purifying sieve barrel (10) is fixedly connected onto the expansion piece (9), a stirring shaft (12) is fixedly connected onto the purifying sieve barrel (10), a transmission shaft (13) is rotatably arranged on the machine body (1) through the upper support (5) and the lower support (6), and a driving gear (14) and a driven gear (15) which are respectively and fixedly sleeved on the upper rotating shaft (7) and the transmission shaft (13), and a belt pulley (16) is connected between the transmission shaft (13) and the lower rotating shaft (8).

2. The big data analysis type code-spraying analyzer based on meta-learning as claimed in claim 1, wherein the upper cavity (3) and the lower cavity (2) are opened in the body (1) from top to bottom, and an operation window corresponding to the lower cavity (2) is opened in a side wall of the body (1).

3. The big data analysis type code-spraying analyzer based on meta-learning as claimed in claim 2, wherein the driving motor (4), the upper bracket (5) and the lower bracket (6) are arranged in the lower cavity (2) from top to bottom, the upper rotating shaft (7) and the lower rotating shaft (8) are vertically arranged in a vertically corresponding manner, the purification sieve barrel (10) is a hollow cylindrical structure with an opening at the top end and an opening at the bottom end, and the cover body (11) is detachably and rotatably sleeved in the opening at the top end of the purification sieve barrel (10).

4. The big data analysis type code-spraying analyzer based on meta-learning according to claim 3, wherein the stirring shaft (12) is vertically arranged in the purification sieve barrel (10), a purification screen (17) arranged below the stirring shaft (12) is fixedly arranged in the purification sieve barrel (10), a high-pressure pump (18) is fixedly arranged in the lower cavity (2), and a code-spraying end head (23) connected with the high-pressure pump (18) through a hose is arranged outside the machine body (1).

5. The big data analysis type code-spraying resolver based on meta-learning as claimed in claim 4, wherein the transmission shaft (13) is vertically arranged between the upper bracket (5) and the lower bracket (6), and the transmission shaft (13) is located outside the purification sieve barrel (10).

6. The big data analysis type code spraying analyzer based on meta-learning as claimed in claim 1, wherein the learning component comprises a storage plate (19), an operation plate (20) and a control center (21), the storage plate (19) is fixedly arranged in the upper cavity (3), the operation plate (20) is composed of an experience module (191) and a task module (192), and the operation plate (20) is composed of a grading module (201), a keyword search module (202), a matching module (203) and a learning module (204).

7. The big data analysis type code-spraying analyzer based on meta-learning as claimed in claim 6, wherein the storage board (19) and the operation board (20) are electrically connected to the control center (21), and the control center (21) is connected to the code-spraying terminal (23) through an information cable.

8. The big data analysis type code-spraying analyzer based on meta-learning as claimed in claim 1, wherein a supplement box (22) for supplying ink is fixedly installed outside the machine body (1), and the supplement box (22) is connected with a material conveying pipeline which extends into the lower cavity (2) and corresponds to the top opening of the purification sieve barrel (10).

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